Open AccessComplexity Results and Algorithms for Extension Enforcement in Abstract Argumentation
Author(s) -
Johannes Wallner,
Andreas Niskanen,
Matti Järvisalo
Publication year - 2017
Publication title -
journal of artificial intelligence research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.79
H-Index - 123
eISSN - 1943-5037
pISSN - 1076-9757
DOI - 10.1613/jair.5415
Subject(s) - argumentation theory , computer science , polynomial hierarchy , theoretical computer science , probabilistic argumentation , satisfiability , knowledge representation and reasoning , extension (predicate logic) , semantics (computer science) , computational complexity theory , argument (complex analysis) , artificial intelligence , algorithm , programming language , probabilistic logic , epistemology , philosophy , biochemistry , chemistry
Understanding the dynamics of argumentation frameworks (AFs) is important in the study of argumentation in AI. In this work, we focus on the so-called extension enforcement problem in abstract argumentation. We provide a nearly complete computational complexity map of fixed-argument extension enforcement under various major AF semantics, with results ranging from polynomial-time algorithms to completeness for the second-level of the polynomial hierarchy. Complementing the complexity results, we propose algorithms for NP-hard extension enforcement based on constrained optimization. Going beyond NP, we propose novel counterexample-guided abstraction refinement procedures for the second-level complete problems and present empirical results on a prototype system constituting the first approach to extension enforcement in its generality.
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